Answer:
Enumerated or delegated powers; reflected powers; concurrent powers.
Explanation:
A constitution refers to a set of written laws and principles which is typically used to determine the power and authority of the government, as well as guarantee the fundamental rights of its citizens.
The authors of the Constitution of the United States of America established a bicameral legislature mainly because they reached a compromise between the small states and the large states over representation.
Basically, the Constitution accords powers to the national or federal government and these includes; enumerated or delegated, reflected, and concurrent powers.
Thus, the Constitution still spells out delegated or enumerated powers; those powers that belong to the federal government alone. It also discusses reflected powers, which are those powers retained by the states. Sometimes, both state governments and the federal government have the same authority to act, something called concurrent powers.
I believe it’s D, but not sure
Answer:
Stage 3
Explanation:
On the <u>Stage 1</u> recruiter scans through resumes all applicants' resumes and shortlists them. On the <u>Stage 2</u>, he or she looks at shortlisted resumes in more detail and decides whom to invite for an interview.
Meanwhile, on the <em>Stage 3</em>, recruiter or another company's representative <em>uses applicants resume to formulate the first set of questions</em>. For example, about specific job related experiences or training applicant has.
I think the answer is B.False
We know that <span>L=Iω</span>
That is Angular momentum is equal to product of moment of inertia and angular velocity.
Now differentiating with respect to time,
<span>dL/dt=d(Iω)/dt</span>
But we know that the rate of change of angular momentum is equal to net external
torque i.e.
<span>
dL/dt=τ</span>
therefore
if no exterannal torque is acting on the body i.e. <span>
τ=0</span>then <span>d</span><span>L</span><span>/</span><span>d</span><span>t</span><span>=</span><span>0</span>
in other words
<span>d(Iω)/dt=0</span>
because <span>
dL/dt=d(Iω)/dt</span><span>
Hence angular momentum is conserved or angular momentun does not change with time if the net external force acting on the body is zero.
hope this helps</span>
